# PyCParser - global include wrappers
# by Albert Zeyer, 2011
# code under BSD 2-Clause License

from .cparser import *
from .interpreter import CWrapValue, _ctype_ptr_get_value, Helpers
import ctypes, _ctypes
import errno, os

libc = ctypes.CDLL(None)

def _fixCType(stateStruct, t):
    if t is ctypes.c_void_p: t = CBuiltinType(("void", "*"))
    if t is ctypes.c_char_p: t = CPointerType(CBuiltinType(("char",)))
    if t is ctypes.c_char: t = CBuiltinType(("char",))
    return t

def wrapCFunc(state, funcname, restype, argtypes, varargs=False):
    f = getattr(libc, funcname)
    restype = _fixCType(state, restype)
    if restype is CVoidType:
        f.restype = None
    else:
        assert restype is not None
        f.restype = getCTypeWrapped(restype, state)
    assert argtypes is not None
    argtypes = [_fixCType(state, arg) for arg in argtypes]
    f.argtypes = [getCTypeWrapped(arg, state) for arg in argtypes]
    state.funcs[funcname] = CWrapValue(
        f, name=funcname, funcname=funcname,
        returnType=restype, argTypes=argtypes)

def wrapCFunc_varargs(state, funcname, wrap_funcname):
    """
    :param str funcname: e.g. "vprintf"
    :param wrap_funcname: e.g. "printf"
    Will register a new function, where the last arg is expected to be va_list.
    va_list is just a tuple of args.
    Will call the wrap-func with all args and unwraps the va_list args.
    """
    wrap_func = state.funcs[wrap_funcname]
    assert isinstance(wrap_func, CWrapValue)
    wrap_arg_len = len(wrap_func.value.argtypes)
    def f(*args):
        assert len(args) == wrap_arg_len + 1
        assert isinstance(args[-1], Helpers.VarArgs)
        return wrap_func.value(*(args[:-1] + args[-1].args))
    f.__name__ = funcname
    state.funcs[funcname] = CWrapValue(
        f, name=funcname, funcname=funcname,
        returnType=wrap_func.returnType, argTypes=wrap_func.argTypes)

def _fixCArg(a):
    if isinstance(a, str):
        a = a.encode("utf-8")
    if isinstance(a, bytes):
        a = ctypes.c_char_p(a)
        print(a, type(a))
    if isinstance(a, ctypes.c_char_p) or (isinstance(a, _ctypes._Pointer) and a._type_ is ctypes.c_char):
        return ctypes.cast(a, ctypes.POINTER(ctypes.c_byte))
    if isinstance(a, ctypes.c_char):
        return ctypes.c_byte(ord(a.value))
    return a

def callCFunc(funcname, *args):
    f = getattr(libc, funcname)
    args = list(map(_fixCArg, args))
    print(f,args)
    return f(*args)


class Wrapper:
    def __init__(self, state):
        """
        :type state: cparser.State
        """
        self.state = state
        # The Wrapper is supposed to work for parsing also without an interpreter.
        # However, when you are going to call some of the functions from here,
        # this is needed.
        self.interpreter = None

    def handle_limits_h(self, state):
        state.macros["UCHAR_MAX"] = Macro(rightside="255")
        state.macros["INT_MAX"] = Macro(rightside=str(2 ** (ctypes.sizeof(ctypes.c_int) * 8 - 1)))
        state.macros["ULONG_MAX"] = Macro(rightside=str(2 ** (ctypes.sizeof(ctypes.c_ulong) * 8) - 1))
    def handle_stdio_h(self, state):
        state.macros["NULL"] = Macro(rightside="0")
        FileP = CPointerType(CStdIntType("FILE")).getCType(state)
        wrapCFunc(state, "fopen", restype=FileP, argtypes=(ctypes.c_char_p, ctypes.c_char_p))
        wrapCFunc(state, "fclose", restype=ctypes.c_int, argtypes=(FileP,))
        wrapCFunc(state, "fdopen", restype=FileP, argtypes=(ctypes.c_int, ctypes.c_char_p))
        state.vars["stdin"] = CWrapValue(callCFunc("fdopen", 0, "r"), name="stdin")
        state.vars["stdout"] = CWrapValue(callCFunc("fdopen", 1, "a"), name="stdout")
        state.vars["stderr"] = CWrapValue(callCFunc("fdopen", 2, "a"), name="stderr")
        wrapCFunc(state, "printf", restype=ctypes.c_int, argtypes=(ctypes.c_char_p,), varargs=True)
        wrapCFunc(state, "fprintf", restype=ctypes.c_int, argtypes=(FileP, ctypes.c_char_p), varargs=True)
        wrapCFunc(state, "sprintf", restype=ctypes.c_int, argtypes=(ctypes.c_char_p, ctypes.c_char_p), varargs=True)
        wrapCFunc_varargs(state, "vprintf", wrap_funcname="printf")
        wrapCFunc_varargs(state, "vfprintf", wrap_funcname="fprintf")
        wrapCFunc_varargs(state, "vsprintf", wrap_funcname="sprintf")
        wrapCFunc(state, "fputs", restype=ctypes.c_int, argtypes=(ctypes.c_char_p, FileP))
        wrapCFunc(state, "fputc", restype=ctypes.c_int, argtypes=(ctypes.c_int, FileP))
        wrapCFunc(state, "fgets", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p, ctypes.c_int, FileP))
        wrapCFunc(state, "fread", restype=ctypes.c_size_t, argtypes=(ctypes.c_void_p, ctypes.c_size_t, ctypes.c_size_t, FileP))
        wrapCFunc(state, "fwrite", restype=ctypes.c_size_t, argtypes=(ctypes.c_void_p, ctypes.c_size_t, ctypes.c_size_t, FileP))
        wrapCFunc(state, "fflush", restype=ctypes.c_int, argtypes=(FileP,))
        wrapCFunc(state, "ftell", restype=ctypes.c_long, argtypes=(FileP,))
        wrapCFunc(state, "rewind", restype=CVoidType, argtypes=(FileP,))
        wrapCFunc(state, "ferror", restype=ctypes.c_int, argtypes=(FileP,))
        wrapCFunc(state, "clearerr", restype=CVoidType, argtypes=(FileP,))
        state.vars["errno"] = CWrapValue(0, name="errno") # TODO
        state.macros["EOF"] = Macro(rightside="-1") # TODO?
        wrapCFunc(state, "setbuf", restype=CVoidType, argtypes=(FileP, ctypes.c_char_p))
        wrapCFunc(state, "isatty", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "fileno", restype=ctypes.c_int, argtypes=(FileP,))
        wrapCFunc(state, "getc", restype=ctypes.c_int, argtypes=(FileP,))
        wrapCFunc(state, "ungetc", restype=ctypes.c_int, argtypes=(ctypes.c_int,FileP))
        struct_stat = state.structs["stat"] = CStruct(name="stat") # TODO
        struct_stat.body = CBody(parent=struct_stat)
        CVarDecl(parent=struct_stat, name="st_mode", type=ctypes.c_int).finalize(state)
        state.funcs["fstat"] = CWrapValue(lambda *args: None, returnType=ctypes.c_int, name="fstat") # TODO
        state.macros["S_IFMT"] = Macro(rightside="0") # TODO
        state.macros["S_IFDIR"] = Macro(rightside="0") # TODO
    def handle_stdlib_h(self, state):
        state.macros["EXIT_SUCCESS"] = Macro(rightside="0")
        state.macros["EXIT_FAILURE"] = Macro(rightside="1")
        state.funcs["abort"] = CWrapValue(
            lambda: self.interpreter._abort(),
            returnType=CVoidType,
            name="abort"
        )
        state.funcs["exit"] = CWrapValue(
            lambda s: self.interpreter._exit(s.value),  # int
            returnType=CVoidType,
            name="exit"
        )
        state.funcs["malloc"] = CWrapValue(
            lambda s: self.interpreter._malloc(s.value),  # size_t
            returnType=ctypes.c_void_p,
            name="malloc"
        )
        state.funcs["realloc"] = CWrapValue(
            lambda p_s: self.interpreter._realloc(_ctype_ptr_get_value(p_s[0]), p_s[1].value),  # void*, size_t
            returnType=ctypes.c_void_p,
            name="realloc"
        )
        state.funcs["free"] = CWrapValue(
            lambda p: self.interpreter._free(_ctype_ptr_get_value(p)),  # void*
            returnType=CVoidType,
            name="free"
        )
        wrapCFunc(state, "strtoul", restype=ctypes.c_ulong, argtypes=(ctypes.c_char_p, ctypes.POINTER(ctypes.c_char_p), ctypes.c_int))
        state.funcs["atoi"] = CWrapValue(
            lambda x: ctypes.c_int(int(ctypes.cast(x, ctypes.c_char_p).value)),
            returnType=ctypes.c_int,
            name="atoi"
        )
        state.funcs["getenv"] = CWrapValue(
            lambda x: _fixCArg(ctypes.c_char_p(os.getenv(ctypes.cast(x, ctypes.c_char_p).value))),
            returnType=CPointerType(ctypes.c_byte),
            name="getenv"
        )
    def handle_stdarg_h(self, state):
        state.typedefs["va_list"] = CTypedef(name="va_list", type=CVariadicArgsType())
        def va_start(v, dummy_last):
            assert isinstance(v, Helpers.VarArgs)
            v.idx = 0
        def va_end(v):
            assert isinstance(v, Helpers.VarArgs)
            #assert v.idx == len(v.args), "VarArgs: va_end: not handled all args"  # is this an error?
        def __va_arg(v, inplace_typed):
            assert isinstance(v, Helpers.VarArgs)
            x = v.get_next()
            helpers = v.intp.helpers
            helpers.assignGeneric(inplace_typed, x)
            return inplace_typed
        def __va_arg_getReturnType(stateStruct, stmnt_args):
            assert len(stmnt_args) == 2  # see __va_arg
            return getValueType(stateStruct, stmnt_args[1])
        state.funcs["va_start"] = CWrapValue(va_start, name="va_start", returnType=CVoidType)
        state.funcs["va_end"] = CWrapValue(va_end, name="va_end", returnType=CVoidType)
        state.macros["va_arg"] = Macro(args=("list", "type"), rightside="((__va_arg(list, type())))")
        state.funcs["__va_arg"] = CWrapValue(__va_arg, name="__va_arg",
                                             returnType=None, getReturnType=__va_arg_getReturnType)
    def handle_stddef_h(self, state): pass
    def handle_math_h(self, state): pass
    def handle_string_h(self, state):
        wrapCFunc(state, "strlen", restype=ctypes.c_size_t, argtypes=(ctypes.c_char_p,))
        wrapCFunc(state, "strcpy", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p,ctypes.c_char_p))
        wrapCFunc(state, "strncpy", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p,ctypes.c_char_p,ctypes.c_size_t))
        wrapCFunc(state, "strcat", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p,ctypes.c_char_p))
        wrapCFunc(state, "strcmp", restype=ctypes.c_int, argtypes=(ctypes.c_char_p,ctypes.c_char_p))
        wrapCFunc(state, "strncmp", restype=ctypes.c_int, argtypes=(ctypes.c_char_p,ctypes.c_char_p,ctypes.c_size_t))
        wrapCFunc(state, "strtok", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p,ctypes.c_char_p))
        wrapCFunc(state, "strchr", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p,ctypes.c_int))
        wrapCFunc(state, "strrchr", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p,ctypes.c_int))
        wrapCFunc(state, "strstr", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p,ctypes.c_char_p))
        wrapCFunc(state, "strdup", restype=ctypes.c_char_p, argtypes=(ctypes.c_char_p,))
        wrapCFunc(state, "strerror", restype=ctypes.c_char_p, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "memset", restype=ctypes.c_void_p, argtypes=(ctypes.c_void_p, ctypes.c_int, ctypes.c_size_t))
        wrapCFunc(state, "memcpy", restype=ctypes.c_void_p, argtypes=(ctypes.c_void_p, ctypes.c_void_p, ctypes.c_size_t))
        wrapCFunc(state, "memmove", restype=ctypes.c_void_p, argtypes=(ctypes.c_void_p, ctypes.c_void_p, ctypes.c_size_t))
        wrapCFunc(state, "memchr", restype=ctypes.c_void_p, argtypes=(ctypes.c_void_p, ctypes.c_int, ctypes.c_size_t))
        wrapCFunc(state, "memcmp", restype=ctypes.c_int, argtypes=(ctypes.c_void_p, ctypes.c_void_p, ctypes.c_size_t))
    def handle_time_h(self, state): pass
    def handle_ctype_h(self, state):
        wrapCFunc(state, "isalpha", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "isalnum", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "isspace", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "isdigit", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "isxdigit", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "islower", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "tolower", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "isupper", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
        wrapCFunc(state, "toupper", restype=ctypes.c_int, argtypes=(ctypes.c_int,))
    def handle_wctype_h(self, state): pass
    def handle_assert_h(self, state):
        def assert_wrap(x):
            if isinstance(x, (ctypes._Pointer, ctypes.Array, ctypes._CFuncPtr)):
                x = ctypes.cast(x, ctypes.c_void_p)
            assert x.value
        state.funcs["assert"] = CWrapValue(assert_wrap, returnType=CVoidType, name="assert")
    def handle_fcntl_h(self, state):
        state.macros["O_RDONLY"] = Macro(rightside="0x0000")
        wrapCFunc(state, "open", restype=ctypes.c_int, argtypes=(ctypes.c_char_p, ctypes.c_int))
        wrapCFunc(state, "read", restype=ctypes.c_int, argtypes=(ctypes.c_int, ctypes.c_void_p, ctypes.c_size_t))  # normally <unistd.h>
        wrapCFunc(state, "close", restype=ctypes.c_int, argtypes=(ctypes.c_int,))  # normally <unistd.h>
        # TODO: these are on OSX. cross-platform? probably not...
        state.macros["EINTR"] = Macro(rightside="4")  # via <sys/errno.h>
        state.macros["ERANGE"] = Macro(rightside="34")  # via <sys/errno.h>
    def handle_signal_h(self, state):
        # typedef void (*sig_t) (int)
        state.typedefs["sig_t"] = CTypedef(
            name="sig_t", type=CFuncPointerDecl(type=CVoidType(), args=[CBuiltinType(("int",))]))
        # There is no safe way to support the native C function.
        # The signal handler can be called at any point and it could be that
        # the GIL is hold. Then the signal handler code deadlocks because it also wants the GIL.
        #wrapCFunc(state, "signal", restype=state.typedefs["sig_t"],
        #		  argtypes=(ctypes.c_int, state.typedefs["sig_t"]))
        def signal(sig, f):
            sig = sig.value
            import signal
            if isinstance(f, CWrapValue):
                f = f.value
            def sig_handler(sig, stack_frame):
                return f(sig)
            if isinstance(f, ctypes._CFuncPtr):
                if _ctype_ptr_get_value(f) == 0:  # place-holder for SIG_DFL
                    sig_handler = signal.SIG_DFL
                elif _ctype_ptr_get_value(f) == 1:  # place-holder for SIG_IGN
                    sig_handler = signal.SIG_IGN
            old_action = signal.signal(sig, sig_handler)
            # TODO: need to use helpers.makeFuncPtr for old_action.
            # And maybe handle SIG_DFL/SIG_IGN cases?
            return 0  # place-holder for SIG_DFL
        state.funcs["signal"] = CWrapValue(signal, name="signal", returnType=state.typedefs["sig_t"])
        state.macros["SIGINT"] = Macro(rightside="2")
        state.macros["SIG_DFL"] = Macro(rightside="((sig_t)0)")
        state.macros["SIG_IGN"] = Macro(rightside="((sig_t)1)")
        state.macros["SIG_ERR"] = Macro(rightside="((sig_t)-1)")
    def handle_locale_h(self, state):
        struct_lconv = state.structs["lconv"] = CStruct(name="lconv") # TODO
        struct_lconv.body = CBody(parent=struct_lconv)
        CVarDecl(parent=struct_lconv, name="grouping", type=ctypes.c_char_p).finalize(state)
        CVarDecl(parent=struct_lconv, name="thousands_sep", type=ctypes.c_char_p).finalize(state)
        wrapCFunc(state, "localeconv", restype=struct_lconv, argtypes=())
    def handle_sys_types_h(self, state):
        pass  # dummy

    def find_handler_func(self, filename):
        funcname = "handle_" + filename.replace("/", "_").replace(".", "_")
        return getattr(self, funcname, None)

    def readGlobalInclude(self, state, oldFunc, filename):
        f = self.find_handler_func(filename)
        if f is not None:
            def reader():
                if filename in state._global_include_list: return  # already included
                f(state)
                state._global_include_list.append(filename)
                return
                yield None # to make it a generator
            return reader(), None
        return oldFunc(filename) # fallback

    def install(self):
        state = self.state
        oldFunc = state.readGlobalInclude
        state.readGlobalInclude = lambda fn: self.readGlobalInclude(state, oldFunc, fn)

    def add_all_to_state(self, state):
        for funcname in dir(self):
            if not funcname.startswith("handle_"): continue
            f = getattr(self, funcname)
            f(state)
